How Dimming Works: Difference between revisions
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== How Dimming Works == | == How Dimming Works == | ||
This diagram shows how dimming is implemented using the [[Renard]] system (and many of the other systems that hobbyists are using). The top waveform is the AC powerline voltage | This diagram shows how dimming is implemented using the [[Renard]] system (and many of the other [systems | Electronics Hardware] that hobbyists are using). | ||
The top waveform is the AC powerline voltage.<br /> | |||
The second waveform shows the timing of the [[SSR]] trigger signal (non-pwm case).<br /> | |||
The third waveform shows the timing of the [[SSR]] trigger signal in the pwm case.<br /> | |||
The last waveform is the voltage that appears across the load (lights).<br /> | |||
[[Image:Dimmer_waveforms_001.gif]] | [[Image:Dimmer_waveforms_001.gif]] | ||
Reference: [http://www.dv-fansler.com/Computers%20Lights/dimmers.htm Dimmers] Dave Fansler has a nice write-up on dimming at his site, and almost all of the information there is directly applicable here. | Reference: [http://www.dv-fansler.com/Computers%20Lights/dimmers.htm Dimmers] Dave Fansler has a nice write-up on dimming at his site, and almost all of the information there is directly applicable here. |
Revision as of 22:20, 16 August 2007
How Dimming Works
This diagram shows how dimming is implemented using the Renard system (and many of the other [systems | Electronics Hardware] that hobbyists are using).
The top waveform is the AC powerline voltage.
The second waveform shows the timing of the SSR trigger signal (non-pwm case).
The third waveform shows the timing of the SSR trigger signal in the pwm case.
The last waveform is the voltage that appears across the load (lights).
Reference: Dimmers Dave Fansler has a nice write-up on dimming at his site, and almost all of the information there is directly applicable here.